DE1114655B - Stroke counter - Google Patents

Description

Stroke counter The invention relates to a stroke counter. Be stroke counter used on machines of all kinds to make repetitive movements (strokes) of a Counting machine part. Such stroke counters are often designed as roller counters, for each decimal there is a counting roller on its outer surface carries the ten digits 0 to 9. Each one drives through a pinion or a Maltese cross Roll the following one so that it turns a tenth of a turn for a full turn the role that counts the next higher decimal place. The one's role will switched forward by a drive unit, which is driven by the machine part, whose strokes are to be counted, is actuated, and has a ten-beam for this purpose Switch star on which the drive member acts so that the single role in each Stroke of the machine part executes a tenth of a turn. It has already been suggested the counter except with the drive unit, which is driven by the machine part, its Strokes are to be counted, is actuated, a second, on the drive member of the single roller Acting device, which can be driven by hand, to be provided around the counting rollers to be able to shift forward step by step and bring it to the zero position.

There are various other devices known to lift counters to set all counting rollers to zero together. One of these is particularly simple Heart curve zero setting in which each counting roller has a cam shaped as a heart curve and each of these heart curves is assigned a zero setting finger. This type has the advantage that all counting rollers can be set to zero together with a single movement can be asked.

There are also known stroke counters, which devices for subtracting have, which are either through the operating lever or a special subtraction lever let actuate. Also slide for turning the counting rollers in the forward and in the reverse direction are known.

All of the aforementioned counters have a wide variety of disadvantages on. The main disadvantages common to all counters, however, are the high manufacturing costs, not only due to the many parts, but also due to the small tolerances required due to the multi-part construction, and in the susceptibility to malfunctions and short ones caused by the small tolerances Lifespan, as even a slight wear and tear of an individual part increases the counter can render useless.

The aim of the invention is to create a robust counter from a few individual parts, which can be produced by cheap mass production methods and their dimensional accuracy only modest demands are made to create. At the same time, the counter should except for the forward switching by the machine part whose strokes are to be counted, nor the functions of subtraction by stepping backwards the first Have counting roller and the zero setting of the whole counter. For easy operation the number of controls should be reduced as possible, since one Large number of levers or control buttons provide an overview, especially for technical untrained people, difficult. Thanks to a cheap, robust, no maintenance Construction and diverse functions with a minimum number of operating elements the area of application of the meter is expanded by not only being used for installation in machines in industry, but also in household and office appliances.

The invention is based on a stroke counter that has one or more Counting rollers, the first one with a ten-point star switch and the other equal to all subsequent counting rolls with a heart curve serving for zeroing is provided, a device cooperating with the heart curves for zeroing the counting rollers, a bow-shaped one that interacts with the star switch the machine part, the strokes of which are to be counted, actuated drive element to hold it forward the first counting roller and a device for driving the switching device of Hand has. She is through it marked that by hand Drivable device set up for switching back the first counting roller is and is connected to the device for zeroing and that the two devices have a common operating lever which, when pivoting from a central position, in which it is held sprung, in one direction the device in the sense “Zeroing” and in the other direction the device in the sense of “switching backwards the first counting roll «drives.

An embodiment with two further variants of a stroke counter according to the invention will be described with reference to the drawing, in which Fig.l a The front view of the stroke counter is, while FIGS. 2 to 5 are sections along the lines II-II to V-V of Figure 1, Figure 3 also showing the housing; Fig. 6 to 8 are perspective views of component parts; Fig. 9 shows a detail from Figure 1, but with a slightly modified construction; Fig. 10 shows one Another excerpt from Fig. 1, which shows the second variant, while Fig. 11 is a section along the line XI-XI of FIG.

A U-shaped bearing bracket 4 serves as a bearing for the three axles 1, 2 and 3. Axis 1 is the drive axle; it has an angled end 1a on which the driving force can act. Axis 2 is the reset axis; it has a reset handle 2a. On the roller axis 3, three counting rollers of known type 5, 6 and 7 are freely rotatable. All counting rollers have ten digits 0 to 9 on their cylindrical surfaces. Furthermore, each counting roller has a heart curve 5 a or 6 a or 7 a and a counterweight (of which only the two 6 b and 7 b are visible in FIGS. 3 and 2 of the drawing), so that the focus is in the center of the roller . The counting rollers 6 and 7 also have a ring of pins 6 c and 7 c serving their drive, while the counting roller 5 has a ten-part star switch 5 c. Each count roll further has two pins 5d and 6d and 7d, respectively, which are used by a roll rotation of the count roll with the aid of the pinion 8 and 9 in which the pins 6 c and 7 c of the following count roll engages these to turn a tenth of a turn. This tens transmission is known per se and is used in many counters.

The drive bracket 10 is loosely seated on the drive axle 1 and the support pin 11 is firmly seated and extends into a slot 10a of the drive bracket 10, whereby the axle and bracket are connected to one another in an axially immovable manner. A shift to the right (in Fig. 1) is thereby made impossible in a known manner, that the axis b at the end of a pin 1 having a smaller diameter, which is in a correspondingly small bore of the stirrup leg 4a. A shift to the left is prevented by the spacer sleeve 13 which is pushed onto the drive axle 1 between the leg 10 b of the drive bracket 10 and the leg 4 b of the bearing bracket 4. On this axis 1, there are also two helical springs 12 and 14, each of which is supported with one end on the support pin 11. The other end of the spring 12 is supported on the roller axle 3 (see. Fig. 1 and 2) and tries to turn the drive axle counterclockwise (Fig. 2), while the second end of the spring 14 in the notch 10 c the drive bracket 10 is located; whereby this is pivoted so that the lower end (Fig. 3 and 8) of the slot 10 a on the support pin 11 is present. The drive bracket 10 also has a leg 10 b opposite the leg with two switching noses 10 d and 10 e, of which the first is pressed by the spring 12 on the star switch 5 c so that it lies between two of its teeth.

Now engages the angled end la a force to which the axle 1 against the force of the spring 12 rotates in the clockwise direction (Fig. 2 to 4), the drive bracket 10 is carried along by the spring 14 until the switching lug 10 e between two teeth of the star switch 5 c is located. If the drive axle is rotated further, the switch bracket 10 remains stationary, since the support pin 11 can move in the slot 10a, and the spring 14 thus has the function of an overstroke protection. The switching nose 10e is arranged and designed so that when the drive bracket is pivoted, the star switch 5c and thus the entire counting roller 5 rotates by a little more than half a tooth pitch. As soon as there is no longer any force acting on the angled end la of the drive axle 1, the drive bracket 10 and the drive axle 1 can move back into the starting position under the force of the spring 12. However, since the counting roller 5 has been rotated by a little more than half a tooth pitch, the switch lug 10d engages in the next notch in the star switch 5c and ends the tenth rotation that has begun.

In a certain position of the drive axle 1, neither of the two switch noses 10 d and 10 e is in engagement with the star switch 5 c. So that the counting roller 5 cannot continue to rotate unintentionally, it has a brake in a known manner. As can be seen from FIGS. 1 and 4, the central bore of the counting roller 5 has a rectangular longitudinal groove 5 e in which a bow-shaped brake spring 15 supported on the drive shaft 1 lies. 9 shows another embodiment of a brake for the counting roller 5: Between the two counting rollers 5 and 6 there is a star spring 15a , the central ring-shaped part of which is pressed so strongly against the counting roller 5 by the arms supported on the counting roller 6, that the necessary braking is achieved.

A third embodiment of the brake is shown in FIGS. Here, between the counting roller 5 and the leg 19e of the pinion carrier 19, there is a pretensioned leaf spring 24, which is seated with the bore 24a on the roller axle 3 and engages with the legs 24b in the recess 2a of the reset axle 2. An identical leaf spring 25 lies between the leg 19f of the pinion carrier 19 and the number roller 7, the bore 25a being seated on the roller axle 3 and the legs 25 6 engaging in the recess 2c of the reset axle 2. These two brake springs 24 and 25 have a bias which, as a result of these springs resting on the fixed legs 19 e and 19 f of the pinion carrier 19 and support in the grooves 2 a and 2 b of the reset axis 2, presses the counting rollers 5, 6 and 7 against each other and as a result the position of the brake springs 24 and 25, which is fixed by the axis 2 and 3, easily hold the counting rollers in their position by braking. However, the brake arrangements are not the subject of the invention.

To switch the counting roller 5 backwards by one unit, the reset handle 2a rigidly connected to the reset axis 2 is used. The return axis is held in a central position by the retaining spring 16 and the retaining bracket 17 secured against rotation on the axis 2 so that it can be pivoted against the force of this spring in both directions of rotation. If you push the handle 2 a in Fig. 1 backwards, that is, you turn the reset axis 2 in Figs. 2 to 3 clockwise until the upper end 18a of the driver pin 18 firmly connected to it at one end of the slot 19a of the pinion carrier 19 abuts, the reset bracket 122 is pivoted by the lower end 18 b of this driver pin 18, since, as can be seen from FIG. The pinion carrier 19 is freely rotatably mounted on the reset axis and is pivoted clockwise (FIG. 4) by a spring 20, one end of which is supported on the roller axis 3 and the other end is supported on the pinion axis 21 mounted in the pinion carrier 19, that the stop 19 b rests on the roller axis 3. During the pivoting of the return strap 22 engages its restoring lug 22 b in the teeth of the switching star 5 c and rotates it a little more than half a tooth pitch back, that is, in the counterclockwise direction of FIG. 4. The switching projection 10 d of the drive bracket 10, which by Spring 12 is pressed against the star switch 5, moves back resiliently and then jumps into the adjacent tooth gap in order to end the started tenth rotation of the counting roller 5 counterclockwise as soon as the restoring lug 22 b releases the star switch 5 c.

If the whole counter is now to be reset to zero, the reset handle 2 a in FIG. 1 is pulled forward, that is, the reset axis 2 in FIGS. 2 to 5 is rotated counterclockwise, against the force of the retaining spring 16 the spring 23, one end of which is supported on the driver pin 18 and the other end in the hole 22 c of the reset bracket 22 (Fig. 3 and 7), the stop lug of this latter is always pressed against the lower end 18 b of the driver pin 18 , so that the return bracket 122 is pivoted counterclockwise. As soon as the upper end of its slot 22d strikes the nose 19d of the pinion carrier 19, which protrudes into the slot, this is also carried along against the force of the spring 20 until the stop 19c lies on the roller axis 3. During this pivoting of the pinion carrier 19, the pinions 8 and 9 seated on the axis 21 come out of engagement with the pins 6c and 7c of the counting rollers 6 and 7, so that they move through the Rückstellfmger 22e, 22f and 22g of the reset bracket 22 Let zero reset when these are pressed against the heart curves 5a, 6a and 7a.

As can be seen from the description above, it is here a counter that is made up of very few parts: Except for a counting roll for each decimal and a pinion equipped with a brake spring for transmission From one counting roll to the next, four brackets, four axes and five spiral springs are sufficient for the construction of an extremely versatile stroke counter that moves forward and can switch backwards and reset to zero. By installing a or two brake springs, the counter, which is made up of so few parts, can still fit perfect. The individual parts do not require great precision, so that they can can be mass-produced easily and cheaply and have a long service life exhibit. Another major advantage of the construction described is in that the meter has no screws or rivets, which further serves to to keep the manufacturing costs low, to reduce the susceptibility to failure and extend the service life. However, this construction is not the subject of the Invention.

Claims (7)

PATENT CLAIMS: 1. Stroke counter, the one or more counting rollers, the first of which is provided on the one hand with a ten-point star switch and on the other hand, like all subsequent counting rollers, with a heart curve serving for zero setting, a device that works together with the heart curves for zeroing the counting rollers, one that works together with the star switch bow-shaped, actuated by the machine part, the strokes of which are to be counted, for switching the first counting roller forwards and a device for driving the switching device by hand, characterized in that the manually drivable device (22b) is set up to switch the first counting roller backwards and is connected to the device (22 e to 22 g) for zeroing and that the two devices have a common actuating lever (2a) which, when pivoted from a central position in which it is spring-loaded, the device ( 22b) in the sense of »zeroing «And in the other direction drives the device (22e to 22g) in the sense of» switching back the first counting roller «. 2. Stroke counter according to claim 1 with a drive member loosely seated on a switching shaft, the switching shaft being firmly connected to a switching lever which is actuated by the machine part whose strokes are to be counted, and with a first spring which drives the drive member against the pivoting direction Tends to rotate when shifting forward and, when the shift lever moves backward, returns the drive element and the shift shaft to the starting position, as well as with a second spring that is independent of the first, characterized in that the second spring (14) controls the shift shaft (1) via one on this attached support pin (11) connects to the drive member (10) to allow rotation of the switching wheel (5c) through the switching shaft (2) after the end of the pivoting of the drive member during the forward stroke, and that at each end of the pin (11) the two springs (12, 14) engages in order to press it on the one hand (spring 14) against a stop (10 a) of the drive element (10) and on the other on the other hand (spring 12) to turn the drive member back into the starting position, and that the support pin is lifted from this stop during further rotation of the shift lever beyond the end position of the pivoting of the drive member (10), the second end of the first spring (12) in with respect to the bracket (4) which serves as a bearing for the axes in a known manner and engages the second end of the second spring (14) on the drive member (10). 3. Stroke counter according to claim 2 with one having two switching lugs Drive member, characterized in that by engaging the switch lugs (10e or 10d) the star switch (5c) by more or less than half a switching step is switchable. 4. stroke counter according to claim 1, characterized in that with the actuating lever (2a) to its resilient holder in the central position one end a retaining bracket (17) is non-rotatably connected, while the other end in known Way is held between the ends of a preloaded coil spring (16), the stops fixed relative to the carrier (4) serving as a bearing for the axes strive to lie. 5. stroke counter according to claim 4, characterized in that that the stops are formed by the roller axis (3). 6. stroke counter according to claim 2, characterized in that the device (22b) for switching back the first counting roller and the device (22e to 22g) for zeroing have a common reset bracket (22) which has a support nose (22a) which is supported by a The spring (23) is brought into contact with a support pin (18) attached to the reset axis in such a way that when the reset axis (2) is rotated in the sense of "switching backwards" the reset bracket can be forcibly pivoted, while when the reset axis is rotated it can be swiveled in the sense of " Zeroing «by the force of the spring follows the support pin. 7. stroke counter according to claims 2 and 6, characterized characterized in that the reset bracket (22) has a reset nose (22 b), when swiveling the reset bracket in the sense of "switching backwards" with the star switch (5c) can be brought into engagement and that thus the counting roller (5) by a little more than half a tooth pitch can be rotated back, and that thereby the resilient with the star switch engaged switching lug (10 d) of the drive bracket (10) in the neigh. beard Notch jumps and through it when the reset bracket (22) returns into its Central position, the counting roller (5) can be switched back so far that it is in the entire one Rotation around a whole tooth pitch. Considered publications: German Patent Nos .: 728136, 814 956; Ri ch t e r and V o s s, components der Feinmechanik, 1952, p. 345.